Metal additive manufacturing of conformal cooling channels in plastic injection molds with high number of design variables
Metal additive manufacturing (MAM) is an effective way to fabricate conformal cooling channels (CCCs), which follow the curves of the plastic product in the mold body of the plastic injection. CCCs have free-curved pathways thanks to the design & manufacturing flexibilities of the MAM process so...
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sg-ntu-dr.10356-1646722023-02-08T02:18:17Z Metal additive manufacturing of conformal cooling channels in plastic injection molds with high number of design variables Kanbur, Baris Burak Zhou, Yi Shen, Suping Wong, Kim Hai Chen, Charles Shocket, Abe Duan, Fei School of Mechanical and Aerospace Engineering Singapore Centre for 3D Printing Engineering::Mechanical engineering Metal 3D Printing Metal Additive Manufacturing Metal additive manufacturing (MAM) is an effective way to fabricate conformal cooling channels (CCCs), which follow the curves of the plastic product in the mold body of the plastic injection. CCCs have free-curved pathways thanks to the design & manufacturing flexibilities of the MAM process so that they can achieve better cooling performance with shorter cooling time and smaller temperature non-uniformity. On the other hand, the flexibilities of the MAM process bring multiple options for design variables and the high number of design variables make the final design of CCCs complex, high-cost, and time-consuming. Considering this challenge, this study presents the entire process of MAM of CCCs for a target product with eight different design variables, which makes it a product with a high number of design variables, from the initial design to the on-site manufacturing including the steps of computer-aided design & simulations, metamodel, multiobjective optimization, and the printing quality monitoring. The target product has three main objectives that are i) the temperature difference between the maximum and minimum values at the internal wall of the mold, ii) maximum temperature in the mold body, and iii) pressure drop. The optimized product is then printed via direct metal laser sintering (DMLS) machine and the quality check is done via X-ray computed tomography. Ministry of Education (MOE) This study is funded by the Ministry of Education Tier 1 RG154/19. 2023-02-08T02:18:17Z 2023-02-08T02:18:17Z 2022 Journal Article Kanbur, B. B., Zhou, Y., Shen, S., Wong, K. H., Chen, C., Shocket, A. & Duan, F. (2022). Metal additive manufacturing of conformal cooling channels in plastic injection molds with high number of design variables. Materials Today: Proceedings, 70, 541-547. https://dx.doi.org/10.1016/j.matpr.2022.09.555 2214-7853 https://hdl.handle.net/10356/164672 10.1016/j.matpr.2022.09.555 2-s2.0-85139725708 70 541 547 en RG154/19 Materials Today: Proceedings © 2022 Elsevier Ltd. All rights reserved |
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Engineering::Mechanical engineering Metal 3D Printing Metal Additive Manufacturing Kanbur, Baris Burak Zhou, Yi Shen, Suping Wong, Kim Hai Chen, Charles Shocket, Abe Duan, Fei Metal additive manufacturing of conformal cooling channels in plastic injection molds with high number of design variables |
| description |
Metal additive manufacturing (MAM) is an effective way to fabricate conformal cooling channels (CCCs), which follow the curves of the plastic product in the mold body of the plastic injection. CCCs have free-curved pathways thanks to the design & manufacturing flexibilities of the MAM process so that they can achieve better cooling performance with shorter cooling time and smaller temperature non-uniformity. On the other hand, the flexibilities of the MAM process bring multiple options for design variables and the high number of design variables make the final design of CCCs complex, high-cost, and time-consuming. Considering this challenge, this study presents the entire process of MAM of CCCs for a target product with eight different design variables, which makes it a product with a high number of design variables, from the initial design to the on-site manufacturing including the steps of computer-aided design & simulations, metamodel, multiobjective optimization, and the printing quality monitoring. The target product has three main objectives that are i) the temperature difference between the maximum and minimum values at the internal wall of the mold, ii) maximum temperature in the mold body, and iii) pressure drop. The optimized product is then printed via direct metal laser sintering (DMLS) machine and the quality check is done via X-ray computed tomography. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Kanbur, Baris Burak Zhou, Yi Shen, Suping Wong, Kim Hai Chen, Charles Shocket, Abe Duan, Fei |
| format |
Article |
| author |
Kanbur, Baris Burak Zhou, Yi Shen, Suping Wong, Kim Hai Chen, Charles Shocket, Abe Duan, Fei |
| author_sort |
Kanbur, Baris Burak |
| title |
Metal additive manufacturing of conformal cooling channels in plastic injection molds with high number of design variables |
| title_short |
Metal additive manufacturing of conformal cooling channels in plastic injection molds with high number of design variables |
| title_full |
Metal additive manufacturing of conformal cooling channels in plastic injection molds with high number of design variables |
| title_fullStr |
Metal additive manufacturing of conformal cooling channels in plastic injection molds with high number of design variables |
| title_full_unstemmed |
Metal additive manufacturing of conformal cooling channels in plastic injection molds with high number of design variables |
| title_sort |
metal additive manufacturing of conformal cooling channels in plastic injection molds with high number of design variables |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164672 |
| _version_ |
1759058785041645568 |